Lumasense-technologies MC320 Manual User Manual

MANUAL MC320 Thermal Imager

10  Introduction MC320 Thermal Imager Manual  Integration with other devices in the process or other systems (PLCs, computers, SCADA and Distri

MC320 Thermal Imager Manual Introduction  11 2.3 Lenses The MC320 is a process camera that has a full array of optional lenses available to mee

12  Introduction MC320 Thermal Imager Manual Before shipment, each camera is assembled, calibrated, and tested at the LumaSense Factory. If you n

MC320 Thermal Imager Manual Introduction  13 2.8 Shipments to LumaSense for Repair All RMA shipments of LumaSense Technologies instruments are t

14  Introduction MC320 Thermal Imager Manual To ensure consistent document formatting, this page was intentionally left blan

MC320 Thermal Imager Manual Getting Started  15 3 Getting Started The MC320 camera is configured to operate under certain conditions according t

16  Getting Started MC320 Thermal Imager Manual 3.4.1 Connecting the Camera to a Dedicated Computer To Connect the Camera to a Dedicated Com

MC320 Thermal Imager Manual Getting Started  17 3.4.2 Connecting the Camera to a Network Device To Connect the Camera to a Network Device: 1.

18  Getting Started MC320 Thermal Imager Manual 3.5 Installing the Software If your system was delivered with LumaSense’s thermal imaging softw

MC320 Thermal Imager Manual Principle of Thermal Imaging  19 4 Principle of Thermal Imaging All materials above 0 degrees Kelvin (-273 degrees

Confidential Information The material contained herein consists of information that is the property of LumaSense Technologies and intended solely for

20  Principle of Thermal Imaging MC320 Thermal Imager Manual 4.2 Emissivity Infrared radiation is energy radiated by the motion of atoms and mol

MC320 Thermal Imager Manual Principle of Thermal Imaging  21 Where, Wo = total radiant energy emitted by a body at a given temperature T. Wbb =

22  Principle of Thermal Imaging MC320 Thermal Imager Manual Where in (1) to (3), In radiation of a normal object, as the emissivity is (<1)

MC320 Thermal Imager Manual Principle of Thermal Imaging  23 Absorptivity equals emissivity, thus emissivity can be described by reflectivity and

24  Principle of Thermal Imaging MC320 Thermal Imager Manual 1. By means of a printed table Various books and literature carry physical constan

MC320 Thermal Imager Manual Principle of Thermal Imaging  25 4.6 Background Noise When measuring the temperature of an object by a radiation th

26  Principle of Thermal Imaging MC320 Thermal Imager Manual 4. Thereafter when measuring the same type object, it is unnecessary to change the

MC320 Thermal Imager Manual Principle of Thermal Imaging  27 4.8 Emissivity of Various Materials From “Infrared Radiation, a Handbook for Applic

28  Principle of Thermal Imaging MC320 Thermal Imager Manual

MC320 Thermal Imager Manual Principle of Thermal Imaging  29

MC320 Thermal Imager Manual Contents  iii Contents 1 General Information ...

30  Principle of Thermal Imaging MC320 Thermal Imager Manual

MC320 Thermal Imager Manual Appendix  31 5 Appendix 5.1 Specifications 5.1.1 MC320 Variations Model Filter Range 1 (°F) Range 2 (°F) Range 1 (

32  Appendix MC320 Thermal Imager Manual Interface Analog: TV Output (NTSC or PAL) Digital: Gigabit Ethernet Connections: 4-pin Power, RJ45 Eth

iv  Contents MC320 Thermal Imager Manual 5 Appendix ...

MC320 Thermal Imager Manual General Information  5 1 General Information 1.1 Information about the User Manual Congratulations on choosing the

6  General Information MC320 Thermal Imager Manual USA This camera is prohibited to be resold, loaned or taken out of the USA unless an export l

MC320 Thermal Imager Manual General Information  7 1.5 Limit of Liability and Warranty All general information and notes for handling, maintena

8  General Information MC320 Thermal Imager Manual To ensure consistent document formatting, this page was intentionally lef

MC320 Thermal Imager Manual Introduction  9 2 Introduction The MC320 represents another milestone in innovative infrared thermal imaging. Design